introduction to photography – cameras, aperture, and...
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Introduction to Photography – Cameras, Aperture, and Shutter Speed
Unit 1: 01: Introduction to Photography
What is the last photograph that you saw? Photographs are all around
us. We see them in magazines, in textbooks, on our bedside tables, on
our refrigerators, and posted to sites like Facebook and MySpace. In
today’s society, it is likely that you encounter numerous photographs
each day. We see photographs in ads, on websites, and in our homes.
It is hard to overemphasize the effect that photographs have had on
our lives. We use photographs to remind us of people or places, to
learn new techniques or activities, and to navigate our daily lives.
Photographs may entice us to buy something, teach us something, or
warn us about something. Whatever their use, photographs have
become an important part of our lives, and many of us enjoy taking
our own pictures to display in our homes or online.
In this unit, we will begin our exploration of photography. To better
understand how to improve the photographs that we take, we must
first understand how cameras work. This will help us make those
adjustments that take our photos from ordinary snapshots to great
photographs.
02: Introduction to Photography
How Cameras Work
To take great photographs, it is important to have a basic
understanding of how cameras work. This will help you better navigate
the many features and controls of your camera because you’ll know
how cameras commonly function. Surprisingly, the basic operation of a
camera isn’t particularly complex or difficult. The principle of
photography is actually fairly simple.
In general, all cameras work in a similar way. A photograph is taken
by letting light fall on a light-sensitive medium, which then records the
image onto that medium. How light or dark a photograph is depends
on how much light was allowed to fall on the light-sensitive medium.
In other words, a camera is a light-tight box that contains a light-
sensitive material or device and a way of letting in a desired amount of
light at particular times to create an image on the light-sensitive
material.
A traditional still film camera has three different components. First is
the mechanical element, which is the camera body and the parts
associated with it. Next is an optical element. This is otherwise known
as the camera lens. Finally, we have the chemical element, which is
the film. These three different elements make up a film camera (we’ll
discuss digital cameras a bit later).
A biconvex lens showing the inverted image.
The optical element of a camera consists of a lens. A lens is “a ground
or molded piece of glass, plastic, or other transparent material with
opposite surfaces, either or both of which are curved, by means of
which light rays are refracted so that they converge or diverge to form
an image.” In other words, a lens can simply be a curved piece of
glass. This glass takes the light bouncing off an item and redirects the
light so that it forms an image of the item. It is able to do this because
light changes speed as it moves from one material to another. The
glass of the lens slows the light down from its speed in air. Since the
light waves enter the glass at different times, the lens will bend the
light in one direction. A converging or convex lens will bend the
light toward the center of the lens, since one or both sides of the glass
curve out. It also takes the various rays of light and bends them
toward the same point, which ultimately allows an image to form.
Not surprisingly, various factors influence how the convex lens bends
the light. The distance from the object to the lens is one of these
factors. As the object is moved closer to or farther away from the lens,
the angle of light entry changes. When the item is close to the lens,
the light enters at a sharper angle than when the item is farther away.
The angle of light entry then affects the distance to the real image that
is formed. If an item is farther away from the lens, the real image that
forms will be closer to the lens, and vice versa. In practical terms, an
item that is farther away will produce a smaller real image since the
light has a more obtuse angle, as opposed to a sharp angle producing
a larger real image.
To see this for yourself, you can take a lit candle and put a magnifying
glass between the candle flame and the wall. The real image of the
candle will appear upside down, and it will grow larger or smaller
depending on how close or far away you hold the magnifying glass.
This process is essentially what you do when you turn the lens of a
camera.
While all of this can be done with a single piece of curved glass,
camera lenses typically involve several lenses within the same unit.
This is partly due to the need to exactly line up the colors of an item
so that there are no issues with the real image. To compensate,
cameras use multiple lenses to realign the colors of the object.
Sabrina Day from Beaufort, S.C., uses a 400mm fixed telephoto lens to photograph
daily activity aboard the aircraft carrier.
You may also be familiar with another aspect of lenses: magnification.
The magnification of a lens is also called the focal length. The focal
length of a lens is the distance between the lens and the film, when
the lens is focused at an infinite distance. So the focal length is really
the distance to a far image. In theory, a 300mm lens would be 300
millimeters away from the film, if you decided to measure it. In
practice, however, the lens is smaller because the multiple lenses
allow the lens to act as if it were longer than it is. You may be more
familiar with the term telephoto. Telephoto lenses are those that
magnify an image or make an object seem closer than it really is. In
contrast, a wide-angle lens shrinks the object in front of it, by way of
a shorter focal length.
03: Introduction to Photography
Creating the Image
A camera uses either a light-sensitive device (film) or a digital sensor
to capture an image. In traditional film-based cameras, the film
becomes a chemical record of the pattern of light on an object. Once
this pattern of light has been recorded, we then need to process the
film to see the image. The film is developed by exposing it to other
chemicals. Color film normally has three light-sensitive layers that
react to the colors blue, green, and red. In developing, the chemicals
dye the film, and when the layers are combined, a full color image is
the result.
For the camera to record the pattern of light on an object or scene, the
camera has to have several different features that help control how
much light enters the camera and when light enters the camera. Have
you ever tried to create an image with film alone? If you laid film out
in the sun or pointed the film at an object, you wouldn’t end up with a
usable photograph because too much light would reach the film.
Instead, the camera has to limit the amount of light that reaches the
film, although this too can have its problems from time to time. Maybe
you’ve already experienced problem photographs that result when too
much or too little light enters the camera. If too much light enters the
camera, the photograph will appear washed out or will be a big spot of
light. If too little light enters the camera, the photograph will be dark
or even completely black.
Shutter Speed in Greenwich
To ensure that the right amount of light enters the camera for a
particular photograph, cameras use several different mechanisms to
control when and how much light enters the light-tight camera body to
record the image on the film. A shutter opens and closes between the
film and the lens, letting light in only when you have told the camera
to do so. The shutter speed is the length of time that light is let into
the camera in order to expose the film. Letting light in is only one part
of the equation, though, as we also need to control how much light
enters the camera. Aperture refers to the lens opening that allows us
to control the amount of light that reaches the film or digital sensor.
The aperture is controlled by the iris diaphragm, a set of overlapping
metal plates that expand out to allow more light or fold in on each
other to reduce the amount of light.
Diaphragm giving a big (f/2.8) and a small (f/16) aperture in the camera lens
The film itself also plays a role in how much light is needed for the
ideal photograph. Traditional film has light-sensitive grains in it. The
larger the grain of the film, the more quickly it will absorb the light.
You can tell the size of the grain in film by looking at the film’s speed.
You may have seen canisters of film labeled as 100 ISO film or 400
ISO film. These numbers refer to the speed or size of the grain. 100
ISO film is typically used for outdoor photography where the sun is
bright; 1600 ISO film, in contrast, is best suited for photography
where the light is very dim. In digital cameras, you will find reference
to sensitivity settings, which are the equivalent of film speed.
To create an optimal image, the photographer and camera have to
balance the film speed, shutter speed, and aperture. This can take
some practice, but it can produce images that show better lighting
than simply pointing the camera and shooting.
04: Introduction to Photography
Taking the Photograph
What happens when you push the button on the camera to take a
picture? Let’s pretend that you’ve seen a bear and you want to take a
picture of the bear. How does the bear go from an object in your
viewfinder to an image on your film?
When you point the camera at the bear, light that bounces off the bear
enters the camera. The light passes through the lens and onto a
mirror, which is located between the lens and the shutter. This mirror
reflects the light upward to a pentaprism, which is a five-sided
mirror. The light from the image then bounces off this mirror and into
the viewfinder, where you see the image. The job of the pentaprism is
to flip the light from the image so that the image appears right side up
rather than shows the inverted image that first occurs. Imagine what it
would be like to have to take a picture if you were looking at the
object or scene upside down!
SLR Pentaprism
You line up your photograph of the bear in just the way you want it
and push the button to take the picture. When you push the button,
the mirror that just gave you the image on the viewfinder moves out
of the way. This allows the light bouncing off the bear to reach the film
behind the open shutter. The mirror and the shutter operation are
connected, so that the mirror stays out of the way for as long as the
shutter is open. When the shutter closes, the mirror flips back into
place. This is why your image in the viewfinder goes dark for a period
of time before it reappears. As long as the viewfinder is black, you
know that the shutter is open inside the camera, allowing the light to
hit the film. With the shutter open, the light hits the light-sensitive
film, where the image of the bear is recorded. Now you’ve taken the
photograph of the bear and are ready to take another.
05: Introduction to Photography
Types of Cameras
The process that we discussed above comes from an SLR camera.
An SLR, or single lens reflex, camera has a semiautomatic
movement of the mirror, which produces an exact image in the
viewfinder. SLR cameras exist in both digital and traditional film forms.
Since the 1970s, most professionals use SLR cameras. We often refer
to SLR cameras when we talk of cameras where we can exchange one
lens for another, but not all SLR cameras have the ability to change
lenses. A dSLR is a digital version of the traditional SLR camera.
Point and shoot cameras are those that use an optical viewfinder,
rather than having the semiautomatic mirror. This means that the
image the photographer sees through the viewfinder is not the exact
same image that will be recorded. Rather than having a mirror within
the camera that reflects the image, point and shoot cameras have a
viewfinder that goes directly through the camera, giving the
photographer a slightly different angle on the scene than what the
shutter will open to capture. There are still many point and shoot
cameras on the market today, most often used by casual
photographers. While these cameras can still take good photographs,
it is important to recognize how the slightly different view from the
viewfinder might affect the resulting photographs. Point and shoot
cameras get their name from the fact that these cameras do almost
everything for the photographer, who only has to “point and shoot.”
Canon SD200 point and shoot camera
Large and medium format cameras use a negative film size that is
greater than the usual 35mm. These types of cameras are typically
used by professionals or by enthusiastic amateurs who enjoy using
different types of cameras. Hasselblad is a Swedish manufacturer of
medium format cameras—these cameras are some of the more widely
used in this category.
One of the earliest cameras made was a pinhole camera. Pinhole
cameras do not use a lens and they have a very small aperture.
Essentially, pinhole cameras are light-tight boxes that have a small
hole, through which light passes and creates an inverted image on the
opposite side of the box as the hole. These cameras may have been
used as long ago as the fourth century BC.
06: Introduction to Photography
Digital Cameras
You may be most familiar with digital cameras. Over the last few
decades, digital cameras have become the most popular choice for
many people. Digital cameras use an electronic image sensor to
digitally record an image. Some digital cameras can also be used to
create video in addition to still photographs. Today, the technology for
digital cameras is being used not only in traditional-looking cameras
but also in cellular phones and other electronic devices. Rather than
storing the image taken on traditional film, digital cameras record the
image to a memory device, or card. In other ways, the digital camera
works in much the same way as a traditional film camera, except that
it uses electronics rather than chemicals to record the image.
Nikon D5000
Digital cameras do have several differences from traditional film
cameras, particularly in the recorded image. Digital cameras create
photographs that are made up of pixels. A pixel is the smallest unit of
the picture that can be controlled. A single pixel would give us very
little information about what a photograph is about, but if we combine
the pixels, we see the image that was photographed. Digital cameras
in use today create pictures made up of millions of pixels. In fact, we
often abbreviate the number of pixels as MP (or million pixels). In
other words, a 2MP camera takes photographs that contain two million
pixels, and a 5MP camera takes photographs that have five million
pixels in each picture. We often refer to digital images by the
arrangement of pixels as well. For example, a 2048x1536 display is
the arrangement for a 3.1MP image. This image will have 2048 pixels
from side to side on the image and 1536 pixels from top to bottom.
Image format is another part of digital cameras that is different from
traditional film. When a digital camera takes a picture, it saves the
picture in a particular file format. These image file formats organize
and store the information from the photograph so that you can
retrieve the image. Generally, each pixel in an image creates three
bytes of data. So, with a 3MP camera, the image would be three
million pixels and nine million bytes (9MB) of data. Let’s look at some
common ways of storing this information:
• JPEG: JPEG (pronounced “jay-peg”), which stands for “Joint Photo
Experts Group,” is the default file format in many digital cameras on
the market today. This is because the file format compresses the
image to decrease the size of the image. Typically, this allows you to
put more images on your photo memory card. However, JPEG has an
important drawback to this space-saving advantage—it is compressed
in a lossy manner, which means that some of the data is lost. The
more the image is compressed (the smaller the size of the file), the
more information from the image is lost. With a high compression, the
image may begin to look blurry and lose some of the sharp detail that
was present in the full-sized version. Some cameras allow you to
choose how much compression will occur to the JPEG file.
• TIFF: The Tagged Image File Format, or TIFF, is a lossless file
format. A lossless file format keeps all of the information in the
picture, but it means a much larger file size than a compressed file.
TIFF files can be compressed, but the size difference really isn’t a
great one.
• RAW or NEF: RAW, or NEF, is a file format that is offered on some
cameras, particularly higher-end cameras. This file saves the actual
data, which are not processed by the camera. RAW files can be
compressed without losing information, and their compressed size
tends to be between a TIFF and a JPEG file. Many photo editing
software programs can convert RAW files to TIFF or JPEG files. The
advantage of RAW files is that because they retain all of the
information, some aspects such as white balance can be more easily
changed in editing than with other files.
Understanding these different file formats can help you determine
which option you should choose for different applications. For example,
if you are just taking a snapshot and don’t plan to enlarge the photo
beyond a standard snapshot size, a JPEG file would probably be fine.
However, if you are shooting professional images that might be blown
up to larger sizes, you would probably want to choose a lossless file
format like TIFF or RAW.
07: Introduction to Photography
Camera Features and Controls
To get the most out of your camera, it is important to understand the
features and controls that your particular camera has. We’ll cover
some of the more common features and controls in this section, but
you may find that your camera has more than what we discuss, or it
may not have all of these features. For example, some point and shoot
cameras will not have all of the features we cover. Our discussion will
focus primarily on digital cameras, although some of the controls can
also be found on traditional film cameras.
A partly disassembled Panasonic Lumix digital camera,
with the front lens removed, but still functioning (see display).
Most digital cameras on the market today (as well as most point and
shoot cameras) have a fixed zoom lens that cannot be replaced. On
these digital cameras, you may find reference to optical and digital
zoom. Optical zoomworks like a telephoto lens; the image quality
remains the same as the image is magnified. Digital zoom crops the
image and enlarges the cropped image to fill the frame of the camera.
This means that the digital zoom generally results in a loss of quality
in the image.
Another feature that appears on some cameras is the white
balance. White balance is simply an adjustment that can be made to
the color so that whites will appear white in the photograph, and not
yellow or blue. The light source for the photograph is often a cue about
the white balance; some cameras have settings for shade, sunlight,
fluorescent lighting, and so on.
Collage of 4 images of Metrostation, Sofia University, Sofia. The image illustrates the differences in the
white balance setting. Up left: auto WB, up right: sun, down left: flash, down right: wolfram bulb
Some cameras also have image stabilization or vibration reduction.
These features essentially adjust for any movements that the camera
may make during exposure to reduce blurry images. This adjustment
might include moving a lens group or the sensor in the camera if
movement is detected. Although it is not foolproof, this feature can
help reduce some camera movement issues.
Many digital cameras have different modes, which basically give the
camera a hint about the type of picture you want to take so that it can
adjust accordingly. In older cameras, manual mode, or one in which
the photographer has to make all adjustments, was the only choice.
Some cameras still have this option (although others are included as
well). Automatic modes control the features of the camera for the
photographer. For example, a camera in automatic mode will
determine whether the flash is needed or if it will need to set the
aperture.
Other common camera modes may be found on your camera, such as
macro, action, night, portrait, and so on. These modes adjust the
camera even more for the type of picture that you want to take. For
example, using the portrait mode tends to result in a less-focused
background, putting the emphasis on the person whose portrait you
are taking. An action or sports mode will use the highest shutter speed
possible to best capture movement.
Did You Know?
You can create your own simple pinhole camera using items commonly
found in homes. To create a pinhole camera similar to those created
before the age of modern photography, you’ll need a round oatmeal
box, wax paper, and heavy tape (preferably black tape).
To start, you’ll want to cut the round oatmeal box (or other cardboard
type tube or round container) in half, leaving the bottom of the
container in place, so that you have two short round pieces or tubes.
Place a piece of wax paper over one of the open ends of the round
container and tape it in place. Once you have this done, put the
oatmeal tube back together again so that the wax paper is in the
middle of the tube. Wrap tape around the middle of the tube where
the two pieces join together, making the tube as lightproof as possible.
Finally, create a small pinhole in the bottom of the container. Now
you’re ready to try out your pinhole camera.
Take your pinhole camera outside on a sunny day. Hold your eye to
the open end and let some light come through the pinhole. You should
see the small inverted image of what your pinhole camera is pointing
at on the wax paper inside. You’ve created a pinhole camera that is
fairly similar to those that were created hundreds of years ago! You
can also create simple cameras that will actually record photographs,
although the process is slightly different and a bit more complicated
than creating the simplest pinhole camera.
In this unit, we learned more about the basic operation of cameras.
We discussed how a camera is able to capture a photograph on film or
through a digital sensor. In addition, we learned about how aperture
and shutter speed affect our ability to take and record a photograph.
We discussed some of the different types of cameras and examined
some of the different features and controls that are found on many of
today’s cameras.
UNIT ONE: Photography Text Questions
Answer the questions in the Google Form:
Introduction to Photography: Cameras, Aperture, and Shutter Speed:
Unit 1 Text Questions
The answers to the Review & Critical Thinking questions are worth
10 points.
Unit One: Text Questions – Answer these questions in the Introduction to Photography: Cameras, Aperture, and Shutter Speed: Unit 1 Text Questions Google Form.
Review & Critical Thinking Questions
1. What is a camera?
2. What is a convex lens?
3. What three components make up a film camera? Define each part.
4. What is a pentaprism? What job does it do in the camera?
5. What are point and shoot cameras? How do they differ from SLR cameras?
6. What is JPEG? What considerations have to be kept in mind with JPEG?
7. What is the difference between optical and digital zoom?
8. What are the steps you can take to create a pinhole camera? Have you tried
to make one?
9. What are some of the differences between film and digital cameras? Which
one do you prefer?
10. What are some advantages of being able to see an image right after you’ve
taken it (such as with an instant camera or being able to review the image on a
digital camera)?
UNIT ONE: Photography Lab Questions
The answers to the lab questions are worth 10 points.
Unit One: Lab Questions: Answer these questions in the Introduction to Photography: Cameras, Aperture, and Shutter Speed: Unit 1 Lab Questions Google Form
The Beautiful Nano Details of Our World <- your first lab link:
https://www.ted.com/talks/gary_greenberg_the_beautiful_nano_details_of_our_w
orld
1. How are the photographs taken with a 3D microscope different than those
taken with a regular camera? How are they similar?
2. How can photography allow us to view the world around us in different
ways?
3. How did the grains of sand from the moon differ from the grains of sand
from the earth?
4. Of the micro photographs in the video, which one did you like the best?
Why?
5. If you were given a 3D microscope to use for photography, which object(s)
would you most want to photograph? Why?
David Griffin on How Photography Connects Us <- your second lab link:
https://www.ted.com/talks/david_griffin_on_how_photography_connects?languag
e=en
1. What is your favorite photograph in the presentation? Why?
2. What is special about photographs?
3. What does someone need to be a great photojournalist?
4. The title of the video is "How photography connects us." What do you think
is meant by this? How does photography connect us?
5. If you could photograph any event, place, animal, etc. in order to tell a
story, what would you choose to photograph? Why?
Unit 3: 01: Aperture & Shutter Speed
“Light makes photography. Embrace light. Admire
it. Love it. But above all, know light. Know it for
all you are worth, and you will know the key to
photography.” -George Eastman
The one necessary element to make a photograph is light. Light is
what exposes the film or creates an image on a digital sensor. Without
light there is no photograph. At the same time, too much light can ruin
a photograph, leaving the photo overexposed or washed out. You’ve
probably seen the result of this at some point: a photograph that is
white instead of showing the image.
Ginkgo Leaves
In this unit, we will discuss some of the different ways that we can
harness light and manipulate it to create perfectly exposed
photographs. We will examine how aperture and shutter speed can be
used to control the amount of light that enters the camera and the
amount of time that the light enters the camera. Learning to adjust
and control these two aspects can help you create great photographs
in a wide variety of light settings.
02: Aperture & Shutter Speed
Aperture
In Unit 1, we learned that aperture refers to the lens opening that
allows us to control the amount of light that reaches the film or digital
sensor. The wider the opening is, the more light enters the camera.
The smaller the opening is, the less light enters the camera.
Understanding the aperture settings and how they impact the size of
this opening can mean the difference between a photograph that is
over- or underexposed and one that has the perfect lighting.
Lens Aperture
Aperture is measured in f-stops. The f-stops are typically expressed
as f/number, such as f/2.8. Sometimes they are also expressed as
F2.8. Some common f-stop numbers are:
• f/1.8
• f/2.8
• f/4
• f/5.6
• f/8
• f/11
• f/16
The smaller the f-stop, or f-value, the larger the opening is. In other
words, f/1.8 lets in more light to the camera than f/16. This may seem
a bit confusing at first, since we would expect a larger number to
correspond with a larger opening. However, you can think of the
aperture numbers like a funnel. At the bottom (the smaller numbers),
the funnel is wider, letting in more light. At the top of the funnel (the
larger numbers), the funnel is smaller, letting in less light. As we move
up and down the f-stops, the aperture opening opens or closes. For
each higher f-stop (say from f/2.8 to f/4), the opening becomes half as
large. For each lower f-stop (say from f/2.8 to f/1.8), the opening
doubles.
Aperture Measurements
Changing the aperture affects a photograph in a number ways.
Obviously, the amount of light that enters the camera changes.
Another impact involves depth of field. Essentially, depth of
field refers to the amount of your picture that will be in focus. A large
depth of field means that most of your picture will be in focus,
including both the objects close to your camera and those farther away
from your camera. A shallow (or small) depth of field means that only
a portion of the photograph will be in focus. The rest of the photograph
will appear blurry or fuzzy. So, how does aperture affect depth of field?
A smaller f-stop (larger aperture) will produce a shallower depth of
field. A larger f-stop (smaller aperture) will produce a larger depth of
field.
03: Aperture & Shutter Speed
Shutter Speed
Like the aperture settings, shutter speed also influences the light
entering the camera. While aperture determines how much light
enters, shutter speed determines for how long light will enter the
camera. In other words, shutter speed is the amount of time that the
shutter remains open or the amount of time that the digital sensor
“sees” the image. In a traditional film camera, the shutter speed
indicates the amount of time that the image was exposed to the film.
Shutter Dial
Shutter speed is usually measured in seconds and fractions of seconds.
For example, you may see shutter speeds of 1/1000 and 1/30 (with
the larger denominator indicating a faster shutter speed). A 1/1000
shutter speed means that the shutter stays open for 1/1000 of a
second. A shutter speed of one means that the shutter stays open for
one second. Typically, most photographs will be made using a shutter
speed of 1/60 or faster. This freezes the action, allowing for a clear
picture regardless of the motion. Shutter speeds slower than 1/60 can
be blurry if there is any camera shake or movement while the picture
is being taken. With slower shutter speeds, you’ll need to use a tripod
or other stable location to reduce camera shake and the problems that
come with it. Slower or longer shutter speeds (such as one second, ten
seconds, etc.) are generally used in low light settings, like those taken
at dusk or at night.
Shutter speeds approximately double with each setting. For example,
your camera may have shutter speeds of 1/8, 1/15, 1/30, 1/60,
1/120. Each increasing shutter speed also doubles the amount of light
that enters the camera. Changing the shutter speed occurs in several
different ways, depending on the type of camera. Traditional film
cameras often have a dial on the outside of the camera (often on top)
with the different shutter speeds written on it. Many digital cameras
that allow for manual shutter speed changes display the shutter speed
options within the LCD display. Point and shoot cameras may not have
a manual option to change the shutter speed. In some cameras, you’ll
need to understand the different modes available to choose the ones
that will change the shutter speed (we’ll discuss the common modes
later in the unit).
Action or motion photographs involve shutter speed. In other words,
we can adjust the shutter speed to help us catch motion in different
ways. You’ve probably seen a photograph where a person or object is
blurry because it moved when you took the picture. Adjusting the
shutter speed to a faster speed can help capture a moving object
without blur. This is useful for taking pictures of people participating in
sports, sliding down a slide, or any other motions that we might want
to capture a photograph of.
At the same time, there are circumstances in which we’d like to have
some blur in the photograph to convey motion within the photograph.
For example, you might want to blur the lights of cars moving on a
freeway or blur the motion of a train behind the people you are taking
a photograph of. This motion blur can create a unique effect within the
photograph.
Sparklers at a slow shutter speed
When taking a photograph, it is important to note whether anything is
moving in the photograph. If there is, you’ll need to decide whether
you want to capture the movement clearly or whether you’d like to
allow some blurring to occur. Your decision will affect the shutter
speed that you will use. To clearly capture the motion, you’d choose a
faster shutter speed; to allow some blur in the photo, you’d choose a
slower shutter speed.
04: Aperture & Shutter Speed
Bringing Shutter Speed and Aperture Together
Since both aperture and shutter speed influence the light entering the
camera, it is important to consider their effect on each other when
taking photographs. When you adjust one of these aspects, you will
usually need to also adjust the other. This will even out the exposure
so that you don’t end up with photographs that are underexposed or
overexposed.
The exact combination of the aperture and shutter speed will depend
on the lighting conditions in which you are taking the picture. This is
one reason practicing with different combinations can help you learn
how to best set the shutter speed and aperture together. Let’s take a
look at one example and say that we are taking an ordinary
photograph in normal lighting conditions.
If you set the shutter speed to 1/30, would you set the aperture to a
small f-stop (F4.5) or a large f-stop (F22)? Most likely, you’d want an
aperture setting of F22. This is because a slow shutter speed will let in
more light, while the larger f-stop will reduce the amount of light.
Remember that the larger the f-stop, the smaller the opening is in the
aperture. What if you set the shutter speed to 1/1000? In this case,
you’d want a smaller aperture (such as F4.5) to let in more light, since
the faster shutter speed would be letting in less light.
Depth of field
There are several different ways to think about the relationship
between shutter speed and aperture that may help you learn how to
best use these two aspects in combination with each other. One way is
to think about a water faucet. Imagine for a moment that the water
faucet is the aperture and a timer on the faucet is the shutter speed.
The water coming from the faucet is light, and a full bucket is the
proper exposure. If you turn the faucet on all of the way (a large
aperture), you need to use a short timer (fast shutter speed) because
the bucket will fill up quickly. If you turn on the faucet just a little bit
(a small aperture), you’ll need to use a long timer (a slow shutter
speed). Either arrangement will let the water (light) fill up the bucket
to just the right amount. Adjusting aperture and shutter speed is just
like adjusting the water out of the faucet.
Another way to look at this relationship is to think of shutter speed
and aperture as a seesaw or teeter-totter. As one side of the seesaw
goes up, the other side goes down. In terms of aperture and shutter
speed, think of them as the position of the seesaw.
f/8 f/5.6 f/4
f/2.8
1/250 1/125 1/60 1/30
If one side of the seesaw is at f/4 (aperture), the other side will be at
1/125 (shutter speed). If the aperture becomes larger (f/2.8), the
shutter speed has to get faster (1/250) for the perfect exposure. As
the changes happen, the exposure will remain optimal as long as the
movements mirror each other (one goes up, one goes down).
However, the depth of field will change, as will the ability to capture
movement with or without blurring.
Many digital cameras today measure the light and will adjust the
aperture and shutter speed accordingly. If this is the case, why bother
learning how to adjust the aperture and shutter speed? One reason is
that learning to adjust these aspects allows you to adjust the depth of
field and your ability to catch motion, with or without blur. A fully
automatic setting on your camera generally will not allow you to
capture these changes.
Another reason knowing how to adjust these settings is important is
that your light meter may not always get it right. Sometimes it will be
fooled by something in the photograph, and you will end up with a
photo that is over- or underexposed if you rely on the automatic
setting. For example, imagine that you are taking a picture of a
mountain and the sun is quite bright. You may find that the sky in
your photograph will appear white, since your camera will adjust the
light in order to expose the mountain. Similarly, if you are taking a
picture with snow in it, parts of your photo may appear underexposed
because the light off the snow is so bright that the camera adjusts for
that.
Bullfight at San Marcos Fair, Aguascalientes, Mexico
While your camera can do a great job of figuring out the lighting
conditions in many situations, there will be situations in which your
adjustments will create a better photograph than the camera’s choice
of aperture and shutter speed settings. The reality is that your own
eyes are often a better judge of light and shadow than the camera’s
light sensor.
05: Aperture & Shutter Speed
Understanding the Modes
Some cameras give you the option to choose from several different
modes relating to aperture and shutter speed. While each of the
modes can produce good pictures, it can be helpful to understand what
each mode does. There are particular instances when a specific mode
will give you a better photograph for the type of scene or image you
are trying to capture.
MANUAL MODE
Manual mode is available on some cameras, including many digital and
traditional SLR cameras. Manual mode is one in which the
photographer makes all of the decisions about the aperture, shutter
speed, white balance, ISO, and so on. This gives the photographer the
greatest amount of control over the settings and the photograph that
results. However, using this mode also requires the most amount of
knowledge about what the different settings mean and how to combine
various settings for the best photograph. AUTOMATIC MODE
In contrast to the fully manual mode, automatic mode means that
your camera selects the aperture, shutter speed, white balance, and
so on. Some cameras give you a bit of decision-making power in that
you can override the flash or make the flash into red-eye reduction.
While automatic mode will often give you a good photograph, it is
worthwhile to keep in mind that the camera doesn’t know the type of
photograph that you are taking. It treats all photographs the same,
making adjustments for the amount of light available. This means that
if you want the background slightly blurred for a portrait or to be able
to catch fast action, the automatic mode may not give you the results
that you want.
Notre Dame de Montreal Basilica Rectilinear
PORTRAIT MODE
In the portrait mode, your camera will automatically use a larger
aperture. This will make the background slightly out of focus, putting
the emphasis on the person that you are photographing. You may
want to choose this mode when you are photographing a single person
(or object) and can get close to the person. In particular, this mode
works well if you photograph a person’s head and shoulders.
SPORTS MODE
With the sports mode, your camera will automatically choose a faster
shutter speed. Sports mode is specifically designed to capture moving
objects and keep them in focus. When you photograph in this mode,
you can also pan (or move the camera) in the same direction as the
movement. This can help you get the shot that you want. Another
tactic is to pre-focus your camera on the area where the action will be
taking place as the movement continues. This, however, takes practice
as you’ll need to take the picture at just the right moment.
LANDSCAPE MODE
Another common mode on many cameras is the landscape mode.
This mode uses a small aperture to keep the photograph as in focus as
possible. This means that even items farther away will often be in
focus. The landscape mode might be the one you would choose at a
scenic overlook when you want to get an entire scene within the
photograph. A tripod may be useful in this mode, as the smaller
aperture will often result in a slower shutter speed.
Macro of a mummified Seahorse
MACRO MODE
When you want to take a close-up photograph of something like a
flower or other object, the macro mode might be the best choice.
A macro mode allows you to get closer to your subject. Your distance
to the object will depend on your particular camera’s abilities; some
cameras will allow you to get closer to the subject than others. As the
depth of field is very shallow in this mode, you’ll find that focusing at
close distances can be challenging. For a macro mode photograph, you
will typically want to use a tripod or other stable base, as even slight
movements can throw off the focus of the photograph.
NIGHT MODE
Taking photographs at night can be tricky. Night mode makes taking
pictures in low light situations a bit easier. This mode uses a longer
shutter speed to capture the image and uses a flash to light up items
closer to the camera. If you want a clear picture while using the night
mode, you will want to use a tripod or another stable base for the
camera. The long shutter speed increases the risk of blurry
photographs if there is any camera shake during the exposure.
However, if you want to take a blurred photo of lights in a dark
setting, the camera shake will often result in some interesting
patterns. Give both a try and see which one you like best!
SHUTTER PRIORITY MODE
The shutter priority mode is often represented by an “S” or “TV” on
the camera settings. This mode allows the photographer to set the
shutter speed, while the camera will adjust the other aspects (like
aperture, white balance, and so on) in relation to the shutter speed
setting. This setting can let you experiment with photographing motion
or with creating a deliberate blur with lights, water, or other moving
objects.
Different depth of field settings
APERTURE PRIORITY MODE
Aperture priority mode is another semiautomatic mode. This time,
instead of the photographer setting the shutter speed, the
photographer selects the particular aperture for the photograph. The
camera will then make the necessary adjustments to the shutter
speed, white balance, and so on. This mode might be a good choice if
you want to control the depth of field in a photograph.
OTHER MODES
Depending on your camera, you may have other modes available as
well. For example, some cameras have a movie mode that allows
individuals to take video with their digital camera. Snow mode may
help adjust the lighting and color of snowy scenes. Some cameras also
use modes specific for underwater photographs and for taking pictures
of fireworks, beach scenes, and indoor shots.
06: Aperture & Shutter Speed
Night Photography
One place where aperture and shutter speed play an important role is
in night photography. Once the day starts getting dark, many
photographers put away their cameras. However, if you’ve ever seen a
great dusk or nighttime photograph, you know that the time after the
sun sets can produce some dramatic and beautiful pictures.
Dusk is an ideal time to shoot “night” shots, since there is generally
just a bit of light left in the sky and city/artificial lights have often
come on. This will create a bit more color to the photograph, as
opposed to a strict nighttime shot. The contrasts will also be a little bit
less severe.
Slow shutter speed
For the best night photographs, you’ll need to have a camera with a
shutter speed of about three to thirty seconds. This will compensate
for the lower light levels. Some cameras will keep the shutter open for
longer periods, if the shutter release button is continually pressed. One
thing to keep in mind when trying to take a night photograph is that
aperture priority and shutter priority modes may not contain the full
range of aperture and shutter speed settings that your camera has. If
your results are not quite what you hoped for, you may want to try the
full manual mode to see if you can push the settings just that extra
bit.
Two aspects will increase your success with nighttime photography.
The first is a tripod. With night photographs, it is very important to
eliminate all possible camera shake. This will help prevent blurry
images. The second aspect is either a remote controller for the camera
or a self-timer on the camera. Either of these aspects will reduce the
possible camera shake that can happen when the shutter release
button is pressed.
The advantage of a digital camera in taking nighttime photographs is
that you can see the results right away. This allows you to adjust the
aperture and shutter speed to just the right settings for the available
light. You will want to start with a particular set of settings for shutter
speed and aperture. Remember to adjust both of them as you learned
earlier in the unit. For example, if you use a shutter speed of three
seconds, you may want to try an aperture of f/4. If this doesn’t create
the right exposure (it is under- or overexposed) try doubling or halving
the f-stop to the next setting, depending on the lighting, to see
whether this will give you a better exposure. It may be helpful for you
to write down the particular settings that you choose for each
photograph so that you can adjust the settings if you need to.
In some cases, the night mode on your camera may produce a good
photograph. This mode will make the decisions for you in terms of
aperture and shutter speed. One thing to keep in mind when using the
night mode is that the flash will often be set off to light up images
close to the camera. This can be helpful in some circumstances, such
as if you were taking a picture of a person at night. However, a flash
can also ruin a different photograph. Some cameras will allow you to
turn off the flash, and others will allow you to adjust the flash so that
it is less strong in the photograph. Generally, a flash is really only
useful if the subject of the photograph is within a few feet of the
camera. After that, the flash loses its ability to really light the scene or
the object.
One aspect to keep in mind when taking nighttime photographs is
that, depending on the time of night, most of the light will probably be
coming from artificial sources. This artificial lighting can affect the
color of the scene. To compensate for this, you may need to adjust the
white balance on your camera. Different white balance settings can
create very different looks, so you may want to try a few of them out
to see how the scene will change.
In this unit, we discussed the role of aperture and shutter speed in
creating the right exposure. Learning to control these two aspects in a
camera can give you better images in a variety of different settings.
We examined how aperture and shutter speed affect each other and
how the various camera modes adjust these aspects for different
situations. Finally, we discussed how aperture and shutter settings can
be adjusted to take photographs at night.
UNIT THREE: Photography Text Questions
Please complete the following questions. It is important that you use
full sentences and present the questions and answers when you
submit your work. The answers to the Review & Critical Thinking
questions are worth
10 points.
Unit Three: Text Questions
Review & Critical Thinking Questions
1. What is aperture priority mode? When might you use this mode on a
camera?
2. What is depth of field? How can you adjust the depth of field in a
photograph?
3. What is the relationship between aperture and shutter speed? How can you
describe this relationship?
4. What is the landscape mode? How does this mode adjust the aperture?
What is the result of this adjustment?
5. How is shutter speed generally measured? What do the measurements
mean?
6. How is aperture measured? What do the measurements mean?
7. Why is learning to control aperture and shutter speed important?
8. Which camera mode do you think you are most likely to use? Why?
9. Have you tried to take some action photographs of people, animals, or other
objects? How did the photographs turn out? What are some of the challenges
with taking action photographs?
10. What are some of the difficulties of taking night photographs? How can you
reduce these challenges?
UNIT THREE: Photography Lab Questions
At this point, you are asked to complete the web journey questions.
Each link has a set of questions beneath it.
The answers to the lab questions are worth 10 points.
Unit Three: Lab Questions
What is Exposure? <- your first lab link: https://vimeo.com/91467849
1. What is exposure?
2. What can affect illuminance?
3. How do camera settings influence exposure?
The Aperture <- your second lab link: https://vimeo.com/91569600
1. Describe how the aperture size relates to the size of the lens opening.
2. How does the amount of light allowed through the lens influence a
photograph?
3. Describe a situation that you might want to adjust the f-stop for your
photograph? What benefit would you gain?
Shutter Speed <- your third lab link: https://vimeo.com/95462808
1. What is the shutter?
2. How do the shutter speed numbers relate to the time the shutter is open?
3. If you were to set the shutter speed for a long opening, what effects might
you notice in your photographs? Why?
https://lti.flvsgl.com/content/0pgegmdjral16u87c5ctlrug35/edl_digital
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